UMLS:C0020437 - FACTA Search

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Query: UMLS:C0020437 (hypercalcemia)
10,293 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Hypercalcemia is the most frequent paraneoplastic syndrome observed in cancer patients. This morbidity can be divided into two categories: one is hypercalcemia induced by severe bone metastases; the other the elaboration of hypercalcemic factors by solid tumors, termed humoral hypercalcemia of malignancy (HHM). With regard to humoral factors responsible for HHM, a protein with parathyroid hormone (PTH)-like activity, designated PTH-related protein (PTHrP), was isolated from a cancer cell line established from a hypercalcemic patient's lung cancer tissue, and the structure of PTHrP mRNA was identified. Since the biological activity of PTHrP explained most of the clinical and laboratory findings of HHM patients and recent clinical studies indicated the very close relationship between the development of HHM and the production of PTHrP by tumor, PTHrP is now regarded to be the primary candidate for the actual factor responsible for HHM.
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PMID:[Malignancy-associated hypercalcemia]. 200 37

Bone scintigraphy was performed in a patient with lung cancer of small cell. On bone scintigraphy the increased accumulations in kidneys were observed, while no findings of multiple skeletal accumulations suspected of bone metastases were observed. Four weeks later, when hypercalcemia has been advanced, on repeated bone scintigraphy the extra-skeletal accumulations in such as lung, heart and stomach were shown. These findings indicated that the cause of hypercalcemia in this case was due to not bone metastases but humoral hypercalcemia which the osteolytic substance was produced from tumor. In present paper, the usefulness of bone scintigraphy in hypercalcemia with malignancy, and the mechanism of hypercalcemia have been described and discussed.
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PMID:[Multiple extra-osseous accumulation of 99mTc-phosphorous compounds bone scintigraphy in small cell lung cancer associated with hypercalcemia]. 217 11

Many factors, such as interleukin 1, TGF alpha, TNF alpha, and beta and prostaglandins, have been implicated in aetiological roles in HHM (Martin and Mundy, 1987). Much interest in the past has also centered upon the likelihood of ectopic secretion of PTH in this condition. We have purified a protein (PTHrP) implicated in HHM from a human lung cancer cell line (BEN). Full-length cDNA clones have been isolated and found to encode a prepropeptide of 36 amino acids and a mature protein of 141 amino acids. Eight of the first 13 amino acids were identical with human PTH, although antisera directed to the NH2-terminus of PTHrP do not recognize PTH; this homology is not maintained in the remainder of the molecule. PTHrP therefore represents a previously unrecognized hormone, possibly related to the PTH gene by a gene duplication mechanism. In support for this notion, the PTHrP gene has been localized to the short arm of chromosome 12; it is believed that chromosome 11, containing the PTH gene, and chromosome 12 are evolutionarily related. In addition, the human PTHrP gene has been isolated, characterized, and shown to have a similar intron/exon organization as the PTH gene. It is possible that the original ancestral gene is indeed the PTHrP gene; resolution of this question awaits studies in lower species. Peptides synthesized to the predicted protein sequence have enabled detailed structure-function studies that have identified NH2-terminal sequences to be responsible for the biological effects of the molecule. Antibodies raised against the various synthetic peptides have led to the immunohistochemical localization of PTHrP in many human squamous cell carcinomas as well as in subpopulation of keratinocytes of normal skin. The availability of these antibodies has opened the way for the development of a radioimmunoassay to detect PTHrP in the sera of cancer patients at risk of developing hypercalcemia. The recent characterization of PTHrP-like activity in the ovine fetus suggests some physiological function for PTHrP. It is possible that PTHrP, as the fetal counterpart of PTH, has the role of maintaining the maternal-fetal calcium gradient. The isolation and characterization of PTHrP has added to our understanding of the mechanisms of hypercalcemia, and may contribute to the understanding of other metabolic bone diseases such as osteoporosis and Paget's disease. Finally, and perhaps most importantly, PTHrP may play a hitherto unrecognized role in fetal calcium metabolism and in normal cell physiology.
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PMID:A novel parathyroid hormone-related protein: role in pathology and physiology. 218 38

Hypercalcemia is one of the most serious metabolic disorders associated with cancer. The incidence and clinical circumstances associated with hypercalcemia vary in different types of cancer. Hypercalcemia is the most frequent metabolic complication of breast cancer and is usually related to widespread osteolytic metastases; however, local and systemic humoral factors mediating bone resorption have been described. In some patients with breast cancer, hypercalcemia results from treatment with estrogens, antiestrogens, androgens, or progestins. Coexisting primary hyperparathyroidism rarely confounds the diagnosis. In patients with lung cancer, the incidence of hypercalcemia varies with histology and is often unrelated to bone metastases. Hypercalcemia may occur either late or early in the disease but is seldom a presenting symptom. In patients with cancers of the head and neck region, hypercalcemia is most often associated with advanced recurrent and terminal disease, presumably humorally mediated. In renal cell carcinoma, hypercalcemia is also an adverse prognostic indicator, commonly mediated by humoral factors. On the other hand, almost all patients with multiple myeloma have extensive osteolytic bone destruction and hypercalcemia is frequently a presenting symptom. Hypercalcemia is uncommon in most lymphomas; however, it is usually a prominent feature of adult T-cell lymphomas and also occurs in some large cell, diffuse B-cell lymphomas. Awareness of the setting in which hypercalcemia of malignancy occurs will lead to its prompt diagnosis and institution of appropriate therapy.
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PMID:Overview of cancer-related hypercalcemia: epidemiology and etiology. 218 51

Three cases of pulmonary atypical mycobacteriosis (AM) were reported. Two cases were associated with lung cancer in which the diagnosis of malignancy was difficult and delayed by the coexistence of AM. The third was a case of adult T-cell leukemia (ATL) which manifested during the course of AM. In case 1 (73 years, male) and case 2 (86 years, male), chest roentgenogram abnormalities as well as clinical symptoms were considered to be caused by mycobacteriosis because of positive smear of acid-fast bacilli in sputa on admission. Therefore it took four months and three months respectively for final diagnosis of lung cancer. The autopsy of case 1 revealed a poorly differentiated adenocarcinoma with coexisting foci of squamous cell carcinoma in right lower lung, and granulomatous inflammations with caseating necroses in right mid and lower lungs. M. avium complex was cultured from sputum on admission, and also a high titer of HTLV-I antibody was demonstrated. In case 2 malignant cells were detected in sputa (class V), however his general condition did not allow an aggressive anticancer chemotherapy and he died of malignancy with complication of thromboangiitis obliterans on right lower leg. Case 3 was a 76-year-old male who had been diagnosed as lung AM for more than two years. His chest radiography showed bilateral infiltrative shadows with frequent positive cultures of M. avium complex (more than 100 colonies) from sputum. A generalized lymphadenopathy including right hilar lymph node on chest X-ray film was followed by the presence of atypical lymphocytes in peripheral blood and the elevation of HTLV-I antibody in serum. Four months later he died with hypercalcemia and renal failure in spite of chemotherapy (CPM + VCR + ADR + PLS). The above cases suggest that AM as well as tuberculosis should be considered when pulmonary infiltrates were observed in malignant patients, especially in patients with retrovirus infections.
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PMID:[Three cases of pulmonary atypical mycobacteriosis associated with lung cancer and adult T-cell leukemia]. 237 33

Severe hypercalcemia (serum calcium, 4.37-4.84 nmol/L) was found in a 70-yr-old man who had a small cell carcinoma of the lung with multiple metastases. The plasma immunoreactive PTH concentration was markedly elevated, as measured in three different PTH assays [N-terminal PTH, 4,650 ng/L (normal, 230-630); midregion PTH, 13,850 ng/L (normal, 180-560); C-terminal PTH, 9,900 ng/L (normal, less than 1,300)], but at autopsy the parathyroid glands were histologically normal. The PTH concentration of a liver metastasis was 503.5 ng/g wet wt (normal liver, less than 4.2-5.9), and the PTH in the tumor extract eluted at nearly the same position as synthetic human PTH-(1-84) on gel filtration chromatography. Northern blot analysis revealed PTH mRNA in the tumor as a single band of 0.9 kilobase. These results indicate that the ectopic PTH production by the lung cancer was the cause of hypercalcemia in this patient.
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PMID:Ectopic production of parathyroid hormone by small cell lung cancer in a patient with hypercalcemia. 254 Nov 61

Severe hypercalcemia is a potentially life-threatening complication of several diseases. Most commonly it is caused by cancers that enhance bone resorption. Impaired renal calcium excretion resulting from a combination of volume contraction and calcium-induced renal injury (nephrocalcinosis) plays a critical role in the genesis and aggravation of hypercalcemia. Treatment of hypercalcemia is based on treating the underlying disease, restoring extracellular volume, correcting electrolyte deficiencies (potassium and magnesium), and reducing bone resorption. Several measures are available to reduce bone resorption, of which the most efficacious are the bisphosphonates and plicamycin (mithramycin). One of these agents in combination with volume expansion can reduce serum calcium concentrations to near normal in most patients within 3 to 6 days. Because of the delayed hypocalcemic action of these agents, they should be administered early. Calcitonin has a more modest hypocalcemic action than the bisphosphonates or plicamycin but has a more rapid effect. Combining calcitonin with plicamycin or a bisphosphonate can enhance the rate of decline of the serum calcium level. Bone resorption also can be reduced by getting patients out of bed to stand or walk. Glucocorticoids may be effective in patients with hypercalcemia associated with high levels of vitamin D, such as sarcoidosis, some lymphomas, or vitamin D intoxication. Patients with mild to moderate hypercalcemia may be asymptomatic. Therapy in these patients should be directed at the primary disease as well as at preventing complications that could raise the level of serum calcium. Efforts should be made to prevent volume contraction and prolonged bed rest. Sedatives and narcotic analgesics, by reducing activity and oral intake, can raise serum calcium levels. In the future it may be possible to predict which patients with cancer are likely to develop accelerated local tumor-mediated or humorally mediated osteolysis. For example, high circulating levels of PTH-like peptides in patients with lung cancer might suggest a greater risk of developing hypercalcemia. These patients could be monitored more closely by periodically measuring urinary calcium. Another prophylactic approach would be to treat patients at risk of developing hypercalcemia with drugs, such as the bisphosphonates, that inhibit bone resorption.
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PMID:Treatment of hypercalcemia. 267 75

Many factors, such as interleukin 1, TGF alpha, tumor necrosis factor alpha and beta, and PGs, have been implicated in etiological roles in HHM (Martin and Mundy, 1987). Much interest in the past has also centered upon the likelihood of ectopic secretion of PTH in this condition. We have purified a protein (PTHrP) implicated in HHM from a human lung cancer cell line (BEN). Full-length cDNA clones have been isolated and were found to encode a prepropeptide of 36 amino acids and a mature protein of 141 amino acids. Eight of the first 13 amino acids were identical with human PTH, although antisera directed to the NH2 terminus of PTHrP do not recognize PTH; this homology is not maintained in the remainder of the molecule. PTHrP therefore represents a previously unrecognized hormone, possibly related to the PTH gene by a gene duplication mechanism. In support of this notion, the PTHrP gene has been localized to the short arm of chromosome 12; it is believed that chromosome 11, containing the PTH gene, and chromosome 12 are evolutionarily related. In addition, the human PTHrP gene has been isolated, characterized, and shown to have a similar intron--exon organization as the PTH gene. It is possible that the original ancestral gene is indeed the PTHrP gene; resolution of this question awaits studies in lower species. Peptides synthesized to the predicted protein sequence have enabled detailed structure-function studies that have identified NH 2-terminal sequences to be responsible for the biological effects of the molecule. Antibodies raised against the various synthetic peptides have led to the immunohistochemical localization of PTHrP in many human squamous cell carcinomas as well as in a subpopulation of keratinocytes of normal skin. The availability of these antibodies has opened the way for the development of a radioimmunoassay to detect PTHrP in the sera of cancer patients at risk of developing hypercalcemia. The recent characterization of PTHrP-like activity in the ovine fetus suggests some physiological function for PTHrP. It is possible that PTHrP, as the fetal counterpart of PTH, has the role of maintaining the maternal-fetal calcium gradient. The isolation and characterization of PTHrP have added to our understanding of the mechanisms of hypercalcemia and may contribute to the understanding of other metabolic bone diseases, such as osteoporosis and Paget's disease. Finally, and perhaps most importantly, PTHrP may play a hitherto unrecognized role in normal cell physiology.
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PMID:Parathyroid hormone-related protein: isolation, molecular cloning, and mechanism of action. 268 46

A 3-hour single intravenous infusion of aminohydroxypropylidene diphosphonate (APD) 45 mg was given to 25 patients with malignant hypercalcemia. There were seven patients with breast cancer, eight with lung cancer, and ten with a variety of other cancers. Twenty-four patients responded to a single APD 45 mg infusion, 18 of whom (75%) had falls in plasma calcium to below the upper limit of normal (less than or equal to 2.75 mmol/l). Of 15 patients who had severe hypercalcemia, i.e., plasma calcium levels greater than 3.5 mmol/l, 14 responded and 9 (60%) achieved normocalcemia. Five patients developed hypocalcemia. One patient with lung cancer developed spontaneously reversible acute dyspnea after APD which was considered to be an idiosyncratic drug reaction. Single short-duration infusions of APD 45 mg are very effective in correcting malignant hypercalcemia in the majority of patients and are particularly suitable for patients with pre-APD plasma calcium levels greater than 3.5 mmol/l, who are less likely to develop hypocalcemia.
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PMID:Single high-dose (45 mg) infusions of aminohydroxypropylidene diphosphonate for severe malignant hypercalcemia. 276 28

The controversial prognostic significance of serum calcitonin in small-cell lung cancer (SCC) prompted this retrospective study relating serum levels to (1) stage of disease [limited disease (LD) vs. extensive disease (ED)], (2) imaging studies of metastases to bone, liver, and brain, and (3) survival. Of the 127 previously untreated patients with SCC presenting from 1979 to 1984, calcitonin levels could be compared to the stage of the disease in 69 patients (25 LD and 44 ED) and to various staging procedures including 99mTc methylene diphosphonate bone scans (63 patients), 99mTc sulfur colloid liver-spleen scans (64 patients), computed tomography of the head (63 patients) and serum calcium (61 patients). 71% (49/69) of patients had elevated calcitonin of whom 65% (32/49) had ED. 29% (20/69) had normal levels of whom 60% (12/20) had ED. 40% (18/45) of patients with raised calcitonin had liver metastases. 100% (19/19) with normal calcitonin had no liver involvement. Two patients with hypercalcemia and increased calcitonin had extensive bony metastases. The survival experiences of patients with normal and elevated serum calcitonin levels were analyzed. No significant differences were found within each stage or in the group overall. The positive correlation of serum calcitonin to liver metastases was statistically significant. No such relationship could be demonstrated with stage of disease, bone metastases, brain metastases, or survival.
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PMID:Imaging studies and the prognostic value of serum calcitonin in staging small-cell lung cancer. 283 15

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